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JP5840978B2 - Instrument mounting member - Google Patents
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JP5840978B2 - Instrument mounting member - Google Patents

Instrument mounting member Download PDF

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JP5840978B2
JP5840978B2 JP2012039092A JP2012039092A JP5840978B2 JP 5840978 B2 JP5840978 B2 JP 5840978B2 JP 2012039092 A JP2012039092 A JP 2012039092A JP 2012039092 A JP2012039092 A JP 2012039092A JP 5840978 B2 JP5840978 B2 JP 5840978B2
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wall
holding
main body
cable
instrument mounting
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JP2013176222A (en
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渡辺 佳樹
佳樹 渡辺
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Mirai Industry Co Ltd
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Mirai Industry Co Ltd
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Description

本発明は、壁材に形成された壁孔を介して壁材の裏側に配置される器具取付部材に関する。   The present invention relates to an instrument mounting member arranged on the back side of a wall material through a wall hole formed in the wall material.

従来より、建物内の壁面に配線器具等を設置するため、その壁内には器具取付部材が設置されている(例えば、特許文献1)。図12に示すように、特許文献1の配線ボックス60は、矩形板状の底壁61と、四つの側壁61a〜61dとから前面(一面)に開口部Kを有する有底四角箱状に形成されている。そして、上側壁61a及び下側壁61bの底壁61側には、孔62がそれぞれ形成されている。孔62は、ケーブルを配線ボックス60内に引き込むための引込孔として機能する。   Conventionally, in order to install a wiring device or the like on a wall surface in a building, a device mounting member is installed in the wall (for example, Patent Document 1). As shown in FIG. 12, the wiring box 60 of Patent Document 1 is formed in a bottomed square box shape having an opening K on the front surface (one surface) from a rectangular plate-shaped bottom wall 61 and four side walls 61a to 61d. Has been. And the hole 62 is formed in the bottom wall 61 side of the upper side wall 61a and the lower side wall 61b, respectively. The hole 62 functions as a drawing hole for drawing the cable into the wiring box 60.

特開2003−18724号公報JP 2003-18724 A

ところが、特許文献1の配線ボックス60では、上側壁61a及び下側壁61bにおいて、孔62は、底壁61側に、各側壁61a,61bの半分を開口させて形成されている。このため、壁W裏に配線されたケーブルを、孔62を介して配線ボックス60内に引き込む際、残存した各側壁61a,61bにケーブル又は作業者の手が干渉してしまい、配線ボックス60に対するケーブルの配線作業が行い難いという問題があった。   However, in the wiring box 60 of Patent Document 1, in the upper side wall 61a and the lower side wall 61b, the holes 62 are formed on the bottom wall 61 side by opening half of the side walls 61a and 61b. For this reason, when the cable wired on the back of the wall W is drawn into the wiring box 60 through the hole 62, the cable or the hand of the operator interferes with the remaining side walls 61a and 61b, and the wiring box 60 There was a problem that it was difficult to perform cable wiring work.

本発明は、上記従来の問題に鑑みてなされたものであって、その目的は、ケーブルの配線作業を簡単に行うことができる器具取付部材を提供することにある。   The present invention has been made in view of the above-described conventional problems, and an object thereof is to provide an instrument mounting member that can easily perform a cable wiring operation.

上記問題点を解決するために、請求項1に記載の発明は、壁表側から、壁材に穿設された壁孔を通過させて壁裏に配置される器具取付部材であって、配線器具を取着するための一対の取着部と、前記壁の裏面に当接する当接面と、を有する本体と、前記壁裏のケーブルが挿通されるとともに前記本体の背面に突設されて、該背面とともに環状を構成するケーブル挿通部と、を備え、前記ケーブル挿通部は、少なくとも周方向の一部に該周方向に伸長する弾性部を備えることを要旨とする。
In order to solve the above-mentioned problems, the invention according to claim 1 is an appliance mounting member arranged on the back of a wall through a wall hole drilled in a wall material from the front side of the wall. A main body having a pair of attachment portions for attaching, a contact surface that comes into contact with the back surface of the wall, and a cable on the back of the wall is inserted and protruded from the back surface of the main body , A cable insertion portion that forms an annular shape with the back surface , and the cable insertion portion includes at least a part of the circumferential direction and an elastic portion that extends in the circumferential direction.

請求項2に記載の発明は、壁表側から、壁材に穿設された壁孔を通過させて壁裏に配置される器具取付部材であって、配線器具を取着するための一対の取着部と、前記壁の裏面に当接する当接面と、を有する本体と、前記壁裏のケーブルが挿通されるとともに前記本体の背面に突設される環状のケーブル挿通部と、を備え、前記ケーブル挿通部は、少なくとも周方向の一部に弾性部を備え、前記弾性部は、前記ケーブル挿通部の周壁が蛇腹状に形成されてなることを要旨とする。
請求項3に記載の発明は、請求項1又は請求項2に記載の器具取付部材において、前記本体は、環状形成された板状の本体における周方向の一部を切欠形成されてなり、前記ケーブル挿通部は、前記本体の背面を前記ケーブル挿通部の一部とし、残りの箇所の少なくとも一部に前記弾性部が設けられてなることを要旨とする。
The invention according to claim 2 is an appliance mounting member disposed on the back of the wall through the wall hole formed in the wall material from the front side of the wall, and a pair of attachments for attaching the wiring appliance. A main body having a contact portion, an abutting surface that abuts against the back surface of the wall, and an annular cable insertion portion projecting from the back surface of the main body while the cable behind the wall is inserted; The cable insertion part is provided with an elastic part at least in a part in the circumferential direction, and the elastic part is characterized in that a peripheral wall of the cable insertion part is formed in a bellows shape.
According to a third aspect of the present invention, in the instrument mounting member according to the first or second aspect, the main body is formed by notching a part of the circumferential direction of the annular plate-shaped main body, The cable insertion part is characterized in that the back surface of the main body is a part of the cable insertion part, and the elastic part is provided in at least a part of the remaining part.

請求項4に記載の発明は、壁表側から、壁材に穿設された壁孔を通過させて壁裏に配置される器具取付部材であって、配線器具を取着するための一対の取着部と、前記壁の裏面に当接する当接面と、を有する本体と、前記壁裏のケーブルが挿通されるとともに前記本体の背面に突設される環状のケーブル挿通部と、を備え、前記ケーブル挿通部は、少なくとも周方向の一部に弾性部を備え、前記ケーブル挿通部は、前記本体と、該本体から本体の外方に向かって延出する対向した側壁と、両側壁の先端を連結する連結壁と、によって構成され、前記弾性部は、前記両側壁にそれぞれ設けられてなることを要旨とする。 The invention according to claim 4 is an appliance mounting member disposed on the back of the wall through the wall hole formed in the wall material from the front side of the wall, and a pair of attachments for attaching the wiring appliance. A main body having a contact portion, an abutting surface that abuts against the back surface of the wall, and an annular cable insertion portion projecting from the back surface of the main body while the cable behind the wall is inserted; The cable insertion portion includes an elastic portion at least in a circumferential direction, and the cable insertion portion includes the main body, opposing side walls extending from the main body toward the outside of the main body, and tips of both side walls. And the elastic portion is provided on each of the both side walls.

本発明によれば、ケーブルの配線作業を簡単に行うことができる。   According to the present invention, the cable wiring work can be easily performed.

実施形態の器具取付枠、及び器具保持枠を示す斜視図。The perspective view which shows the instrument mounting frame and instrument holding frame of embodiment. (a)は、器具取付枠を示す平面図、(b)は、器具取付枠を示す正面図、(c)は、器具取付枠を示す側面図。(A) is a top view which shows an instrument mounting frame, (b) is a front view which shows an instrument mounting frame, (c) is a side view which shows an instrument mounting frame. 器具取付枠を壁材の裏側に配置した状態を示す正面図。The front view which shows the state which has arrange | positioned the instrument mounting frame on the back side of wall material. 器具取付枠を壁裏に挿入する様子を示す斜視図。The perspective view which shows a mode that an instrument mounting frame is inserted in a wall back. 器具取付枠を壁材の裏側に配置した状態を示す断面図。Sectional drawing which shows the state which has arrange | positioned the instrument mounting frame on the back side of wall material. (a)は、別の実施形態における器具取付枠を示す平面図、(b)は、別の実施形態における器具取付枠を示す正面図、(c)は、図6(b)の6c−6c線断面図。(A) is a top view which shows the instrument mounting frame in another embodiment, (b) is a front view which shows the instrument mounting frame in another embodiment, (c) is 6c-6c of FIG.6 (b). FIG. 別の実施形態の器具取付枠を壁裏に挿入する様子を示す斜視図。The perspective view which shows a mode that the instrument mounting frame of another embodiment is inserted in a wall back. (a)は、別例の器具取付枠を示す斜視図、(b)は、別例の器具取付枠を示す平面図、(c)は、別例の器具取付枠を示す側面図。(A) is a perspective view which shows the instrument mounting frame of another example, (b) is a top view which shows the instrument mounting frame of another example, (c) is a side view which shows the instrument mounting frame of another example. (a),(b)は、別例の器具取付枠を示す斜視図。(A), (b) is a perspective view which shows the instrument mounting frame of another example. 別例の配線ボックスを示す斜視図。The perspective view which shows the wiring box of another example. 別例の器具取付枠の設置方法を示す斜視図。The perspective view which shows the installation method of the fixture mounting frame of another example. 背景技術の配線ボックスを示す斜視図。The perspective view which shows the wiring box of background art.

(第1の実施形態)
以下、本発明を具体化した第1の実施形態を図1〜図5に従って説明する。
図1に示すように、器具取付部材としての器具取付枠11は、壁Wに配線器具Hを設置するために、壁Wに穿設された壁孔Waを通過させて壁Wの裏側に配置されて使用されるものである。なお、壁孔Waは、縦長円形状をなしている。
(First embodiment)
A first embodiment of the present invention will be described below with reference to FIGS.
As shown in FIG. 1, the instrument mounting frame 11 as the instrument mounting member is disposed on the back side of the wall W through the wall hole Wa drilled in the wall W in order to install the wiring instrument H on the wall W. Has been used. The wall hole Wa has a vertically long circular shape.

器具取付枠11について説明する。
図1に示すように、器具取付枠11を構成する薄板状の枠本体12は、環状に形成された周方向の一部が切欠した形状(本実施形態においては、縦長矩形枠を構成する長辺のうち一辺を切欠除去した形状)とされ、上下に対向する挟持片13と、両挟持片13の一端部同士を連結する連結片14とからなる。また、一対の挟持片13と、連結片14とにより囲まれた開口部15が形成されている。また、器具取付枠11は、合成樹脂材料により成形されてなる。
The instrument mounting frame 11 will be described.
As shown in FIG. 1, the thin plate-like frame body 12 constituting the instrument mounting frame 11 has a shape in which a part in the circumferential direction formed in an annular shape is cut away (in this embodiment, a length constituting a vertically long rectangular frame). The shape is formed by removing one side of the side), and includes a sandwiching piece 13 that is vertically opposed to each other, and a connecting piece 14 that connects one end of each sandwiching piece 13 to each other. An opening 15 surrounded by the pair of sandwiching pieces 13 and the connecting piece 14 is formed. The instrument mounting frame 11 is formed of a synthetic resin material.

図3に示すように、開口部15の長辺方向への長さL1は、壁孔Waの長辺方向への長さN1より短くなっている。また、開口部15の短辺方向への長さL2は、壁孔Waの短辺方向への長さN2より短くなっている。また、枠本体12において、連結片14の長辺方向への長さT1は、壁孔Waの長辺方向への長さN1より長く、枠本体12において、挟持片13の長辺方向への長さT2は、壁孔Waの開口幅、すなわち短辺方向への長さN2と同じになっている。   As shown in FIG. 3, the length L1 of the opening 15 in the long side direction is shorter than the length N1 of the wall hole Wa in the long side direction. The length L2 in the short side direction of the opening 15 is shorter than the length N2 in the short side direction of the wall hole Wa. Further, in the frame main body 12, the length T1 of the connecting piece 14 in the long side direction is longer than the length N1 of the wall hole Wa in the long side direction, and the frame main body 12 has a length T1 in the long side direction. The length T2 is the same as the opening width of the wall hole Wa, that is, the length N2 in the short side direction.

枠本体12において開口部15を除く表面は、壁Wの裏側から壁孔Waの周縁に当接する当接面12aとなっている。
図1、図2(b)に示すように、各挟持片13の表面、すなわち当接面12aと同一面には、薄板状をなす一対の係止突部17がそれぞれ突設されるとともに、各係止突部17は弾性変形可能になっている。各係止突部17の先端には、爪片17aが枠本体12の外方に向かうに従い尖るように形成されている。
The surface of the frame body 12 excluding the opening 15 is an abutting surface 12a that abuts against the peripheral edge of the wall hole Wa from the back side of the wall W.
As shown in FIGS. 1 and 2B, a pair of locking projections 17 each having a thin plate shape are provided on the surface of each clamping piece 13, that is, the same surface as the contact surface 12a. Each locking projection 17 is elastically deformable. A claw piece 17 a is formed at the tip of each locking projection 17 so as to be pointed toward the outside of the frame body 12.

また、各挟持片13の表面において、一対の係止突部17の間には、挟持片13の長辺方向に沿って延びる薄板状をなす第1規制突部18aがそれぞれ突設されている。また、各挟持片13の表面において、一対の係止突部17の外方には、挟持片13の長辺方向に沿って延びる薄板状をなす一対の第2規制突部18bがそれぞれ突設されている。   Further, on the surface of each sandwiching piece 13, a first regulating projection 18 a having a thin plate shape extending along the long side direction of the sandwiching piece 13 is provided between the pair of locking projections 17. . In addition, on the surface of each sandwiching piece 13, a pair of second restricting projections 18 b extending in the long side direction of the sandwiching piece 13 is provided on the outer side of the pair of locking projections 17. Has been.

各挟持片13に形成された係止突部17及び第1,第2規制突部18a,18bは、同一円弧上に位置しているとともに、その円弧は、壁孔Waの円弧と略同一形状かつ略同一の長さである。これにより、係止突部17及び第1,第2規制突部18a,18bを壁孔Wa内に挿入したとき、係止突部17及び第1,第2規制突部18a,18bは、壁孔Waの内側に位置するようになっている。   The locking protrusion 17 and the first and second restricting protrusions 18a and 18b formed on each sandwiching piece 13 are located on the same arc, and the arc is substantially the same shape as the arc of the wall hole Wa. And it is substantially the same length. Thus, when the locking protrusion 17 and the first and second restriction protrusions 18a and 18b are inserted into the wall hole Wa, the locking protrusion 17 and the first and second restriction protrusions 18a and 18b It is located inside the hole Wa.

各挟持片13の表面において、係止突部17よりも内方であって、挟持片13の長辺方向に沿った略中央には、枠本体12を厚み方向に貫通する螺入孔19が形成されている。この螺入孔19には、ナット(図示せず)が、枠本体12の厚み方向へ移動不能に嵌入されるとともに、このナットにより螺入孔19の内周面に雌ねじが形成されている。よって、本実施形態では、螺入孔19及びナットにより取着部が形成されている。   On the surface of each clamping piece 13, a screw hole 19 that penetrates the frame main body 12 in the thickness direction is located inward of the locking projection 17 and substantially at the center along the long side direction of the clamping piece 13. Is formed. A nut (not shown) is fitted into the screw hole 19 so as not to move in the thickness direction of the frame body 12, and a female screw is formed on the inner peripheral surface of the screw hole 19 by the nut. Therefore, in this embodiment, the attachment part is formed by the screw hole 19 and the nut.

連結片14の長辺方向に沿った内側端部の略中央には、壁W裏への配線器具の当接状態を確認するためのするためのガイド片20が、枠本体12の表面に向かって突出形成されている。ガイド片20の突出長さは、壁孔Waの厚みよりも短くなっており、器具取付枠11を壁孔Waを通過させて壁W裏に当接した際に、ガイド片20が壁孔Waの内側に位置することで壁W表側から視認可能となっている。   A guide piece 20 for confirming the contact state of the wiring device to the back of the wall W is directed toward the surface of the frame body 12 at the approximate center of the inner end along the long side direction of the connecting piece 14. The protrusion is formed. The protruding length of the guide piece 20 is shorter than the thickness of the wall hole Wa, and when the instrument mounting frame 11 passes through the wall hole Wa and comes into contact with the back of the wall W, the guide piece 20 is moved to the wall hole Wa. Is visible from the front side of the wall W.

また、図4に示すように、当接面12aの反対面でもある各挟持片13の裏面であって、開口部15の反対側に位置する挟持片13の長辺端部には、ケーブルCが挿通される、又は内部をケーブルCが配線される電線管Dを保持するためのケーブル挿通部としての保持部30が枠本体12の外方に向かって突設されている。電線管Dは、波付管である。電線管Dには、小径電線管と、小径電線管よりも外径が大きい大径電線管がある。また、保持部30は、器具取付枠11に形成された螺入孔19を避けるように、該螺入孔19よりも外方に位置しており、螺入孔19に挿通されたビス43が枠本体12の背面に突出しても、保持部30で保持した電線管Dと干渉しないようになっている。   Further, as shown in FIG. 4, the cable C is connected to the back side of each clamping piece 13 that is also the opposite surface of the contact surface 12 a and on the long side end portion of the clamping piece 13 that is located on the opposite side of the opening 15. Is inserted, or a holding portion 30 as a cable insertion portion for holding the conduit D through which the cable C is routed is provided so as to protrude outward of the frame body 12. The electric conduit D is a corrugated tube. The conduit D includes a small-diameter conduit and a large-diameter conduit having an outer diameter larger than that of the small-diameter conduit. Further, the holding portion 30 is located outward from the screw hole 19 so as to avoid the screw hole 19 formed in the instrument mounting frame 11, and a screw 43 inserted through the screw hole 19 is provided. Even if it protrudes from the back surface of the frame body 12, it does not interfere with the conduit D held by the holding portion 30.

図2(a)に示すように、保持部30は、周壁31によって開口なく囲まれた帯状の環(無端環状)をなすように形成されている。なお、周壁31は、枠本体12を含まず、保持部30は、周壁31と枠本体12とによって構成されている。より詳しくは、保持部30は、枠本体12の裏面を保持部30の一部として枠本体12に一体成形されてなる。また、周壁31は、枠本体12から枠本体12の外方に向かって延出する対向した側壁32と、両側壁32の自由端を連結する連結壁33とによって構成されている。また、周壁31によって囲まれた保持部30の内部が、内部空間となる。   As shown in FIG. 2A, the holding portion 30 is formed to form a belt-like ring (endless ring) surrounded by the peripheral wall 31 without opening. The peripheral wall 31 does not include the frame main body 12, and the holding unit 30 is configured by the peripheral wall 31 and the frame main body 12. More specifically, the holding unit 30 is integrally formed with the frame body 12 with the back surface of the frame body 12 as a part of the holding unit 30. Further, the peripheral wall 31 is configured by opposed side walls 32 extending from the frame main body 12 toward the outside of the frame main body 12, and a connecting wall 33 connecting the free ends of the side walls 32. In addition, the inside of the holding unit 30 surrounded by the peripheral wall 31 is an internal space.

また、側壁32は、折り畳む方向を交互に変えて蛇腹状に形成されてなる弾性変形可能な蛇腹部、又は変形部としての弾性部34を備えている。側壁32は、交互に折り畳まれることで、弾性部34は挟持片13の長辺と直交する方向(背面方向)に伸縮可能に延設されており、この弾性部34によって、保持部30が弾性を備えることになる。また、弾性部34は、それぞれ対向する側壁32全体にわたって形成されているため、側壁32における対向した箇所に設けられていることになる。なお、弾性部34は、側壁32を蛇腹状に折り畳むことで屈曲形成されているため、弾性部34は蛇腹屈曲部でもある。   Further, the side wall 32 includes an elastically deformable bellows portion formed in a bellows shape by alternately changing the folding direction, or an elastic portion 34 as a deformable portion. The side walls 32 are alternately folded so that the elastic portion 34 extends in a direction perpendicular to the long side of the sandwiching piece 13 (backward direction) so that the holding portion 30 is elastic. Will be provided. In addition, since the elastic portions 34 are formed over the entire opposing side walls 32, the elastic portions 34 are provided at opposing locations on the side walls 32. Since the elastic portion 34 is bent by folding the side wall 32 into a bellows shape, the elastic portion 34 is also a bellows bent portion.

また、図2(a)に示すように、連結壁33の内面及びこの内面と対向する枠本体12の裏面には、電線管Dの外面に係止することで電線管Dの軸方向への移動を規制する一対の係止片35が対向して設けられている。また、係止片35は、保持部30の内面において、弾性部34の対向箇所と直交する他の対向箇所に設けられていることになる。係止片35は、電線管Dの挿入方向に沿った奥方に形成されている。また、係止片35は、連結壁33に設けられているため、弾性部34を伸長させることで、係止片35の対向間隔が広がることになる。   Moreover, as shown to Fig.2 (a), the inner surface of the connection wall 33 and the back surface of the frame main body 12 which opposes this inner surface are latched to the outer surface of the conduit D, and it is to the axial direction of the conduit D. A pair of locking pieces 35 for restricting the movement are provided facing each other. In addition, the locking piece 35 is provided at another opposing location orthogonal to the opposing location of the elastic portion 34 on the inner surface of the holding portion 30. The locking piece 35 is formed in the back along the insertion direction of the conduit D. Moreover, since the locking piece 35 is provided in the connection wall 33, the opposing space | interval of the locking piece 35 will spread by extending the elastic part 34. FIG.

また、側壁32は、蛇腹状に形成された弾性部34を備えているため、弾性部34を伸縮させることで保持部30の内部径(以下、内径と示す)を複数段階に変化可能に構成されている。なお、保持部30の内径とは、対向する係止片35間の長さである。また、保持部30の内径が複数段階に変化することで、周壁31によって囲まれた保持部30の内部空間面積も複数段階に変化することになる。   Further, since the side wall 32 includes an elastic portion 34 formed in a bellows shape, the internal diameter of the holding portion 30 (hereinafter referred to as an inner diameter) can be changed in a plurality of stages by expanding and contracting the elastic portion 34. Has been. The inner diameter of the holding portion 30 is the length between the opposing locking pieces 35. Moreover, when the internal diameter of the holding | maintenance part 30 changes in multiple steps, the internal space area of the holding | maintenance part 30 enclosed by the surrounding wall 31 also changes in multiple steps.

具体的に説明すると、図2(a)に示すように、弾性部34が折り畳まれた状態が初期段階となり、弾性部34を枠本体12の外方に向かって最も伸長させた状態が最終段階となる。初期段階における保持部30の内径R1は、小径電線管の外径よりも小さくなっている。一方、最終段階における保持部30の内径R2は、小径電線管よりも外径が大きい大径電線管を保持可能となるよう、大径電線管の外径よりもやや大きくなるように周壁31の周方向の長さが設定されている。つまり、弾性部34を伸縮させることで、保持部30の内径、及び保持部30の内部空間の面積を変更することができるため、二種類以上の外径の異なる電線管を保持部30の内部で受け入れて弾性部34の弾性力で圧接保持することができる。なお、最終段階における保持部30の内径R2は、立設された2枚の壁Wの間に形成される空間(図示せず)の奥行きよりも短い。これにより、保持部30を枠本体12の外方に最大限伸長させたとしても、保持部30が立設された2枚の壁Wのうち裏面に位置する壁Wに当接することがない。   Specifically, as shown in FIG. 2A, the state where the elastic portion 34 is folded is the initial stage, and the state where the elastic portion 34 is most extended toward the outside of the frame body 12 is the final stage. It becomes. The inner diameter R1 of the holding portion 30 in the initial stage is smaller than the outer diameter of the small diameter conduit. On the other hand, the inner diameter R2 of the holding portion 30 in the final stage is slightly larger than the outer diameter of the large diameter conduit so that the large diameter conduit having a larger outer diameter than the small diameter conduit can be retained. The circumferential length is set. That is, since the inner diameter of the holding part 30 and the area of the inner space of the holding part 30 can be changed by expanding and contracting the elastic part 34, two or more types of conduit tubes having different outer diameters are provided inside the holding part 30. And can be held in pressure contact with the elastic force of the elastic portion 34. Note that the inner diameter R2 of the holding portion 30 in the final stage is shorter than the depth of a space (not shown) formed between the two standing walls W. Thereby, even if the holding | maintenance part 30 is extended to the outer side of the frame main body 12 to the maximum, it does not contact | abut to the wall W located in the back surface among the two walls W with which the holding | maintenance part 30 was erected.

また、図2(a)に示すように、初期段階における弾性部34の折り畳み間隔Q1は、対向する側壁32によってケーブルCをその厚み方向から挟持することで保持可能な長さに形成されてなる。つまり、環状の外側に屈曲した箇所と環状の内側に屈曲した箇所の間である弾性部34の折り畳み間隔Q1は、ケーブルCの厚みより小さい幅となっている。これにより、弾性部34の折り畳み間隔Q1に相当する箇所は、ケーブルCを強制的に圧入することでケーブルCを挟持する挟持部36として機能する。   Further, as shown in FIG. 2A, the folding interval Q1 of the elastic portion 34 in the initial stage is formed to a length that can be held by sandwiching the cable C from the thickness direction by the opposing side wall 32. . That is, the folding interval Q <b> 1 of the elastic portion 34 between the portion bent to the outside of the ring and the portion bent to the inside of the ring has a width smaller than the thickness of the cable C. Thereby, the location corresponding to the folding interval Q1 of the elastic portion 34 functions as a holding portion 36 that holds the cable C by forcibly press-fitting the cable C.

次に、配線器具Hを保持する器具保持枠40について説明する。
図1に示すように、器具保持枠40は、縦長矩形枠状に形成されるとともに、器具保持枠40の内側には、縦長矩形状の器具保持孔41が形成されている。なお、器具保持枠40の長辺方向への長さM1は、壁孔Waの長辺方向への長さN1より長い。一方、器具保持枠40の短辺方向への長さM2は、壁孔Waの短辺方向への長さN2より短い。器具保持枠40の短辺方向に沿った略中央には、器具保持孔41を間に挟むように一対の挿通孔42が、器具保持枠40を厚み方向に貫通してそれぞれ形成されている。各挿通孔42は、器具保持枠40の短辺方向に細長に延びる長孔状に形成されている。
Next, the instrument holding frame 40 that holds the wiring instrument H will be described.
As shown in FIG. 1, the instrument holding frame 40 is formed in a vertically long rectangular frame shape, and a vertically long rectangular instrument holding hole 41 is formed inside the instrument holding frame 40. The length M1 in the long side direction of the instrument holding frame 40 is longer than the length N1 in the long side direction of the wall hole Wa. On the other hand, the length M2 of the instrument holding frame 40 in the short side direction is shorter than the length N2 of the wall hole Wa in the short side direction. A pair of insertion holes 42 are formed at substantially the center along the short side direction of the instrument holding frame 40 so as to penetrate the instrument holding frame 40 in the thickness direction so as to sandwich the instrument holding hole 41 therebetween. Each insertion hole 42 is formed in a long hole shape that is elongated in the short side direction of the instrument holding frame 40.

次に、器具取付枠11の作用を、器具保持枠40を用いて配線器具Hを壁Wに設置する方法とともに、図4及び図5に従って説明する。なお、壁W裏には、ケーブルCが配線されるとともに、このケーブルCは、電線管D内に配線されている。また、ケーブルCは、その余長部が、電線管Dより引き出されている。   Next, the effect | action of the instrument attachment frame 11 is demonstrated according to FIG.4 and FIG.5 with the method of installing the wiring instrument H in the wall W using the instrument holding frame 40. FIG. A cable C is wired behind the wall W, and the cable C is wired in the conduit D. Further, the extra length of the cable C is drawn from the conduit D.

まず、壁Wの所望位置に壁孔Waを、電動穿孔具を用いて穿設するとともに、壁W裏に配設されたケーブルCの余長部を壁孔Waから壁W表に引き出す。そして、作業者Pは、壁W表に引き出したケーブルCを保持部30に挿通するとともに、保持部30の内部に形成された挟持部36で挟持させ、さらに配線器具HにケーブルCを接続する。   First, a wall hole Wa is drilled at a desired position of the wall W using an electric punch, and an extra length portion of the cable C disposed on the back of the wall W is pulled out from the wall hole Wa to the wall W surface. Then, the worker P inserts the cable C drawn out on the surface of the wall W into the holding unit 30, holds it with the holding unit 36 formed inside the holding unit 30, and further connects the cable C to the wiring device H. .

一辺が開口形成された器具取付枠11に保持部30を形成したことで、壁W裏から引き出したケーブルCを保持部30に挿通し、さらに挟持部36で挟持することができる。これにより、壁W裏に器具取付枠11を配置しても、該器具取付枠11の壁W裏への脱落を抑止することができる。また、配線器具HにケーブルCを接続するまでの間、ケーブルCを配線器具Hの近傍で保持することができるので、配線器具HへのケーブルCの取付作業が行い易くなる。   By forming the holding portion 30 in the instrument mounting frame 11 having an opening on one side, the cable C drawn from the back of the wall W can be inserted into the holding portion 30 and further held by the holding portion 36. Thereby, even if the instrument mounting frame 11 is arranged on the back of the wall W, it is possible to prevent the instrument mounting frame 11 from falling off the back of the wall W. In addition, since the cable C can be held in the vicinity of the wiring device H until the cable C is connected to the wiring device H, the work of attaching the cable C to the wiring device H is facilitated.

次に、図4に示すように、配線器具Hを器具保持枠40の器具保持孔41に保持させるとともに、器具保持枠40の上側の挿通孔42にビス43を挿通する。そして、このビス43を、器具取付枠11の上側の螺入孔19に挿入するとともに、ナットに螺入し、器具取付枠11と器具保持枠40を仮固定する。すると、器具取付枠11と器具保持枠40は、それぞれビス43を回動軸として互いに回動自在に連結される。   Next, as shown in FIG. 4, the wiring device H is held in the device holding hole 41 of the device holding frame 40, and the screw 43 is inserted into the insertion hole 42 on the upper side of the device holding frame 40. Then, the screw 43 is inserted into the screw hole 19 on the upper side of the instrument mounting frame 11 and is screwed into the nut to temporarily fix the instrument mounting frame 11 and the instrument holding frame 40. Then, the instrument mounting frame 11 and the instrument holding frame 40 are connected to each other so as to be rotatable about the screw 43 as a rotation axis.

そして、器具保持枠40を壁Wの表側に配置しつつ、器具取付枠11のみを壁孔Waを通過させる。このとき、ビス43を回動中心として器具取付枠11を回動させ、壁孔Waの開口縁を開口部15内に位置させるようにし、器具取付枠11を壁孔Waを通過させる。器具取付枠11は、開口部15を有するため、壁Wが厚かったり、壁Wの立設間隔が狭かったりする場合であっても、開口部15の内側に壁Wの開口縁を位置させながら、枠本体12を回動させつつ壁Wの壁孔Waに挿入することで、壁Wの壁孔Waを容易に通過させ、壁Wの裏側に簡単に配置することができる。   Then, while the instrument holding frame 40 is disposed on the front side of the wall W, only the instrument mounting frame 11 is passed through the wall hole Wa. At this time, the instrument mounting frame 11 is rotated with the screw 43 as the center of rotation so that the opening edge of the wall hole Wa is positioned in the opening 15, and the instrument mounting frame 11 is passed through the wall hole Wa. Since the instrument mounting frame 11 has the opening 15, the opening edge of the wall W is positioned inside the opening 15 even when the wall W is thick or the interval between the walls W is narrow. By inserting the frame main body 12 into the wall hole Wa of the wall W while rotating, the wall hole Wa of the wall W can be easily passed through and can be easily disposed on the back side of the wall W.

また、器具取付枠11の裏面には、枠本体12の外方、すなわち器具取付枠11の短辺方向と直交する方向に突出する保持部30が突設されているが、保持部30は弾性部34を有している。このため、器具取付枠11を壁孔Waを通過させる際に、器具取付枠11が壁Wの表面に当接したとしても、図4に示すように、弾性部34が壁Wに押圧されることで保持部30が圧縮変形され、保持部30の突出量が減少する。このように保持部30を弾性変形可能とすることで、壁孔Waを器具取付枠11が通過する際に邪魔にならない。また、ケーブルCや電線管Dを挿通させていない保持部30も、弾性部34の弾性変形によってその突設量が減少するため、壁孔Waを器具取付枠11が通過する際に邪魔にならない。   In addition, a holding portion 30 that protrudes outward from the frame main body 12, that is, in a direction perpendicular to the short side direction of the appliance mounting frame 11, is provided on the back surface of the appliance mounting frame 11. Part 34 is provided. For this reason, even when the instrument mounting frame 11 abuts against the surface of the wall W when passing the instrument mounting frame 11 through the wall hole Wa, the elastic portion 34 is pressed against the wall W as shown in FIG. Thereby, the holding part 30 is compressed and deformed, and the protruding amount of the holding part 30 is reduced. Thus, by making the holding | maintenance part 30 elastically deformable, when the instrument mounting frame 11 passes the wall hole Wa, it does not become obstructive. In addition, the holding portion 30 through which the cable C and the conduit D are not inserted does not get in the way when the instrument mounting frame 11 passes through the wall hole Wa because the protruding amount is reduced by the elastic deformation of the elastic portion 34. .

次に、作業者Pは、保持部30を枠本体12の外方に向かって伸長させ、保持部30の内部に電線管Dを挿通させる。そして、作業者Pが保持部30の伸長作業を止めると、保持部30の初期段階への復帰力によって、保持部30の内面が電線管Dの外面を圧接することで、保持部30内部に電線管Dが保持される。また、係止片35が電線管Dの外面に係止することで電線管Dの軸方向への移動が規制される。また、電線管Dが保持部30の内面によって圧接保持されるため、器具取付枠11の自重によって、電線管と保持部30の接続状態が外れることがない。   Next, the worker P extends the holding portion 30 toward the outside of the frame body 12 and inserts the conduit D into the holding portion 30. Then, when the worker P stops the extending operation of the holding unit 30, the inner surface of the holding unit 30 presses the outer surface of the conduit D by the return force of the holding unit 30 to the initial stage. The conduit D is held. Further, when the locking piece 35 is locked to the outer surface of the conduit D, the movement of the conduit D in the axial direction is restricted. Further, since the conduit D is pressed and held by the inner surface of the holding portion 30, the connection state between the conduit and the holding portion 30 is not released by the weight of the instrument mounting frame 11.

保持部30に蛇腹状に形成されてなる弾性部34を設けたことで、保持部30を枠本体12の裏面において伸縮させることができる。そして、弾性部34を伸縮させることで保持部30の内径が拡縮するため、複数種類の外径の電線管Dを1つの保持部30で保持することができる。   By providing the holding portion 30 with the elastic portion 34 formed in a bellows shape, the holding portion 30 can be expanded and contracted on the back surface of the frame body 12. And since the internal diameter of the holding | maintenance part 30 is expanded / contracted by expanding / contracting the elastic part 34, the multiple types of outer diameter conduit D can be hold | maintained with the one holding | maintenance part 30. FIG.

次に、壁Wの裏側で、係止突部17及び第1,第2規制突部18a,18bを壁孔Wa内に挿入する。すると、図3に示すように、係止突部17及び第1,第2規制突部18a,18bは、壁孔Waの内面に当接することで器具取付枠11が壁Wに位置決めされる。この位置決め状態では、挟持片13に相当する当接面12aが、壁孔Waの上下両縁部に当接するとともに、連結片14に相当する当接面12aが、壁孔Waの左縁部に当接している。また、器具取付枠11の開口部15が、壁孔Waから壁Wの表側に臨むとともに、螺入孔19も壁孔Waから壁Wの表側に臨んでいる。   Next, on the back side of the wall W, the locking protrusion 17 and the first and second restricting protrusions 18a and 18b are inserted into the wall hole Wa. Then, as shown in FIG. 3, the locking projection 17 and the first and second regulating projections 18 a and 18 b come into contact with the inner surface of the wall hole Wa, so that the instrument mounting frame 11 is positioned on the wall W. In this positioning state, the contact surface 12a corresponding to the clamping piece 13 contacts the upper and lower edges of the wall hole Wa, and the contact surface 12a corresponding to the connecting piece 14 is on the left edge of the wall hole Wa. It is in contact. Further, the opening 15 of the instrument mounting frame 11 faces the front side of the wall W from the wall hole Wa, and the screwing hole 19 faces the front side of the wall W from the wall hole Wa.

さらに、図5に示すように、上側の係止突部17の各爪片17aを、壁孔Waの上側面W1に食い込ませて係止させるとともに、下側の係止突部17の各爪片17aを、壁孔Waの下側面W2に食い込ませて係止させる。すると、各爪片17aの係止により、器具取付枠11が壁Wの裏側へ落下することが規制される。   Further, as shown in FIG. 5, each claw piece 17a of the upper locking projection 17 is bitten into the upper side surface W1 of the wall hole Wa and locked, and each claw of the lower locking projection 17 The piece 17a is bitten into the lower surface W2 of the wall hole Wa to be locked. Then, the instrument mounting frame 11 is restricted from falling to the back side of the wall W by the locking of the claw pieces 17a.

続いて、器具取付枠11に対し、上側のナットに螺入されたビス43をさらに螺入する。さらに、器具保持枠40の下側の挿通孔42に対し、ビス43を挿通するとともに、そのビス43を器具取付枠11の下側の螺入孔19のナットに螺入する。そして、両ビス43を増締めすると、ビス43のナットへの螺進に伴い器具保持枠40が壁Wに引寄せられるとともに、器具取付枠11と、器具保持枠40とで壁Wが挟持される。そして、ビス43のナットへの螺入により、配線器具Hが壁Wの表側に設置されることで、器具保持枠40とともに壁Wを挟んで器具取付枠11が壁Wの裏側に設置される。このとき、図5に示すように、枠本体12の当接面12aが、壁Wの裏面における壁孔Waの周縁部に当接する。   Subsequently, the screw 43 screwed into the upper nut is further screwed into the instrument mounting frame 11. Further, the screw 43 is inserted into the lower insertion hole 42 of the instrument holding frame 40, and the screw 43 is screwed into the nut of the lower screw hole 19 of the instrument mounting frame 11. When both the screws 43 are tightened, the instrument holding frame 40 is drawn to the wall W as the screws 43 are screwed into the nuts, and the wall W is held between the instrument mounting frame 11 and the instrument holding frame 40. The Then, when the screw 43 is screwed into the nut, the wiring device H is installed on the front side of the wall W, so that the device mounting frame 11 is installed on the back side of the wall W with the device holding frame 40 interposed therebetween. . At this time, as shown in FIG. 5, the contact surface 12 a of the frame main body 12 contacts the peripheral portion of the wall hole Wa on the back surface of the wall W.

このとき、ガイド片20が、壁W表側から視認可能となるため、目視した際のガイド片20の突出量から、壁W裏での器具取付枠11の当接状態を確認することができる。すなわち、ガイド片20を壁孔Waに対して垂直かつ平行に視認することができたときには、器具取付枠11が壁W裏における正常位置に配置されたことを確認することができる。一方、ガイド片20を壁孔Waに対して垂直又は平行に視認することができなかったときには、器具取付枠11が壁W裏における正常位置に配置されていないことを確認することができる。   At this time, since the guide piece 20 is visible from the front side of the wall W, the contact state of the instrument mounting frame 11 on the back of the wall W can be confirmed from the protruding amount of the guide piece 20 when visually observed. That is, when the guide piece 20 can be viewed vertically and parallel to the wall hole Wa, it can be confirmed that the instrument mounting frame 11 is disposed at a normal position behind the wall W. On the other hand, when the guide piece 20 cannot be viewed vertically or parallel to the wall hole Wa, it can be confirmed that the instrument mounting frame 11 is not disposed at a normal position behind the wall W.

上記実施形態によれば、以下のような効果を得ることができる。
(1)環状形成された周方向の一部が切欠された枠本体12を備えた器具取付枠11において、枠本体12の一面を壁W裏に当接する当接面12aとするとともに、枠本体12における当接面12aと同一面に螺入孔19を形成する一方、当接面12aの反対面には、ケーブルCを挿通した状態で枠本体12を壁孔Waを通過させて壁W裏に配置した際に、枠本体12の壁W裏でのケーブルCからの脱落を抑止する環状の保持部30を突設した。これによれば、器具取付枠11の一部が切欠形成されることで、器具取付枠11が開口部15を有する場合であっても、保持部30の環状構成によってケーブルCに器具取付枠11が支持される。その結果として、器具取付枠11が壁W裏に配置されても、器具取付枠11が壁W裏に落下することがなく、配線器具HへのケーブルCの接続作業や配線器具Hの設置作業をスムーズに行うことができる。
According to the above embodiment, the following effects can be obtained.
(1) In the instrument mounting frame 11 having the annularly formed circumferentially cut frame body 12, one surface of the frame body 12 is a contact surface 12 a that abuts against the back of the wall W, and the frame body 12 is formed on the same surface as the contact surface 12a, while the frame body 12 is passed through the wall hole Wa while the cable C is inserted on the opposite surface of the contact surface 12a. The annular holding portion 30 that prevents the cable C from dropping off from the cable C behind the wall W of the frame main body 12 is provided in a projecting manner. According to this, a part of the instrument mounting frame 11 is notched, so that even if the instrument mounting frame 11 has the opening 15, the instrument mounting frame 11 is attached to the cable C by the annular configuration of the holding unit 30. Is supported. As a result, even if the fixture mounting frame 11 is arranged on the back of the wall W, the fixture mounting frame 11 does not fall on the back of the wall W, and the connection work of the cable C to the wiring fixture H and the installation work of the wiring fixture H are performed. Can be done smoothly.

(2)周壁31、より詳しくは側壁32が蛇腹状をなすことで、保持部30に弾性を備えさせた。これによれば、保持部30が弾性変形可能となるため、保持部30の変形が行い易くなる。   (2) The peripheral wall 31, more specifically, the side wall 32 has a bellows shape, so that the holding portion 30 is provided with elasticity. According to this, since the holding part 30 can be elastically deformed, the holding part 30 is easily deformed.

(3)保持部30の周壁31、より詳しくは側壁32を蛇腹状に形成し、その折り畳み間隔Q1(隣り合う周壁31)によって、挿通されるケーブルCを厚み方向から挟持可能とした。これによれば、保持部30における屈曲箇所としての挟持部36でケーブルCを挟持することができるため、より一層、ケーブルCを脱落し難くすることができる。   (3) The peripheral wall 31 of the holding part 30, more specifically, the side wall 32 is formed in a bellows shape, and the inserted cable C can be sandwiched from the thickness direction by the folding interval Q1 (adjacent peripheral walls 31). According to this, since the cable C can be clamped by the clamping part 36 as a bent part in the holding part 30, the cable C can be further prevented from dropping off.

(4)電線管Dの周方向を取り囲むように連続する環状に形成された保持部30を備えた器具取付枠11において、保持部30の環状を形成する周壁31に、保持部30の周壁31が取り囲む内部空間が初期段階からその内部空間を拡張するように弾性変形可能な弾性部34を設けた。そして、該弾性部34を変形させて拡張させることで保持部30の内部空間に電線管Dを挿入可能であるとともに、初期段階に戻ることで電線管Dの外面に保持部30の周壁31内面を圧接させて周壁31内部に挿入した電線管Dに対して、元に戻ろうとする弾性復帰力によって電線管Dの外面に圧接させて電線管Dを保持可能とした。これによれば、伸長するだけで保持部30の内径を変更することができるので、使用する電線管Dの外径にかかわらず、同一の保持部30で保持することができる。   (4) In the fixture mounting frame 11 provided with the holding portion 30 that is continuously formed in an annular shape so as to surround the circumferential direction of the conduit D, the peripheral wall 31 of the holding portion 30 is added to the peripheral wall 31 that forms the annular shape of the holding portion 30. The elastic portion 34 that is elastically deformable is provided so that the internal space that is surrounded by is expanded from the initial stage. Then, by deforming and expanding the elastic portion 34, the conduit D can be inserted into the internal space of the holding portion 30, and by returning to the initial stage, the inner surface of the peripheral wall 31 of the holding portion 30 on the outer surface of the conduit D Is pressed against the outer surface of the conduit D by the elastic restoring force to return to the conduit D inserted into the peripheral wall 31 so that the conduit D can be held. According to this, since the inner diameter of the holding part 30 can be changed only by extending, it can be held by the same holding part 30 regardless of the outer diameter of the conduit D used.

(5)保持部30を、少なくとも二種類の外径の電線管D(小径電線管及び大径電線管)を保持可能とすべく、初期段階における保持部30の内部空間は小径電線管が挿通できない大きさであるとともに、大径電線管を挿通可能となる大きさまで拡張可能となるようにした。これによれば、初期段階への保持部30の復帰力によって、保持部30内側に挿通した電線管Dを保持部30で保持することができる。また、電線管Dを保持部30で保持することで、電線管Dを保持部30で保持せずに、ケーブルCを引き出して配線器具Hに接続する場合に比して、電線管Dで保護されないケーブルCの露呈量が少なくなる。   (5) In order to enable the holding portion 30 to hold at least two types of outer diameter conduits D (small-diameter conduit and large-diameter conduit), a small-diameter conduit is inserted into the internal space of the retaining portion 30 in the initial stage. In addition to being a size that cannot be accommodated, it can be expanded to a size that allows insertion of large-diameter conduits. According to this, the conduit D inserted inside the holding part 30 can be held by the holding part 30 by the restoring force of the holding part 30 to the initial stage. In addition, by holding the conduit D with the holding unit 30, the conduit D is protected by the conduit D compared to when the cable C is pulled out and connected to the wiring device H without holding the conduit D with the holding unit 30. The amount of cable C that is not exposed is reduced.

(6)また、使用する電線管Dの外径にかかわらず、同一の保持部30で保持することができるため、使用する電線管Dの外径に合った内径の保持部30を個別に形成しなくても、保持部30を変形させるだけで対応可能な範囲の電線管であれば、全て1つの保持部30で保持することができる。   (6) Moreover, since it can hold | maintain with the same holding | maintenance part 30 irrespective of the outer diameter of the conduit D to be used, the holding | maintenance part 30 of the internal diameter suitable for the outer diameter of the conduit D to be used is formed separately. Even if it is not, as long as it is the range of the electric wire tube which can respond only by changing the holding | maintenance part 30, it can hold | maintain with one holding | maintenance part 30 all.

(7)初期段階における保持部30の内径R1を、小径電線管の外径よりも小さく形成するが、弾性部34によって、小径電線管より外径の大きい電線管Dの外形より保持部30の内径を拡張可能に形成した。弾性部34は弾性力を備えているため、その弾性力によって少ない力でも保持部30が拡張し易くなる。また、伸長した後の復帰力が電線管Dに加わることで電線管Dが保持されるため、電線管Dが脱落し難くなる。   (7) The inner diameter R1 of the holding portion 30 in the initial stage is formed smaller than the outer diameter of the small diameter conduit, but the elastic portion 34 allows the holding portion 30 to have a larger outer diameter than the small diameter conduit. The inner diameter was made expandable. Since the elastic portion 34 has an elastic force, the holding portion 30 can be easily expanded with a small force by the elastic force. Moreover, since the conduit D is hold | maintained when the restoring force after extending | stretching is added to the conduit D, the conduit D becomes difficult to drop out.

(8)弾性部34は、周壁31に蛇腹状に形成された蛇腹屈曲部を有している。そして、屈曲した弾性部34を伸長した状態における保持部30の内径R2が、大径電線管の外径よりも大きくなるようにした。弾性部34を形成することで、該弾性部34において屈曲されている分だけ保持部30の延設方向への長さが収縮されるため、器具取付枠11自体が嵩張らない。   (8) The elastic portion 34 has a bellows bent portion formed in a bellows shape on the peripheral wall 31. And the internal diameter R2 of the holding | maintenance part 30 in the state which extended the bent elastic part 34 was made larger than the outer diameter of a large diameter conduit tube. By forming the elastic portion 34, the length in the extending direction of the holding portion 30 is contracted by the amount bent by the elastic portion 34, so that the instrument mounting frame 11 itself is not bulky.

(9)保持部30は、対向する箇所を互いに離間させることで保持部30の内部空間が拡張するものである。そして、弾性部34を、保持部30において離間させる箇所と略直交する両側部(両側壁32)に設けた。弾性部34を対向した箇所に設けた場合、対向していない箇所に設けた場合に比して均等に力がかかるので、あまり力を入れなくても容易に保持部30の伸長作業を行うことができる。   (9) The holding part 30 expands the internal space of the holding part 30 by separating the opposing portions from each other. And the elastic part 34 was provided in the both-sides part (both side walls 32) substantially orthogonal to the location spaced apart in the holding | maintenance part 30. As shown in FIG. When the elastic portion 34 is provided at the opposite location, the force is applied evenly as compared to when the elastic portion 34 is provided at the non-opposed location, so that the holding portion 30 can be easily extended without applying too much force. Can do.

(10)弾性部34を、対向した係止片35の対向間隔を広げる方向に弾性変形可能とした。これによれば、弾性部34の伸長に合わせて係止片35の位置も変位するので、係止片35による電線管Dの係止能力を維持しつつ、どのような外径の電線管Dも保持することができる。   (10) The elastic portion 34 can be elastically deformed in the direction in which the facing interval between the opposing locking pieces 35 is increased. According to this, since the position of the locking piece 35 is also displaced in accordance with the extension of the elastic portion 34, the outer diameter of the conduit D while maintaining the locking capability of the conduit D by the locking piece 35. Can also be retained.

(11)保持部30の内側に、電線管Dの軸方向への移動を規制する係止片35を設けた。対向位置に設けられた係止片35によって電線管Dが係止されるため、より一層、電線管Dが保持部30から脱落し難くなる。   (11) A locking piece 35 that restricts the movement of the conduit D in the axial direction is provided inside the holding portion 30. Since the conduit D is locked by the locking piece 35 provided at the facing position, the conduit D is more difficult to drop off the holding portion 30.

(12)壁W表側から、壁Wに穿設された壁孔を通過させて壁W裏に配置される器具取付枠11において、壁W裏のケーブルCが挿通される環状の保持部30を、枠本体12の背面に突設した。そして、保持部30の周方向に、該保持部30の突出量を減少可能とすべく弾性部34に設けた。これによれば、器具取付枠11を壁W表側から壁孔Waを通過させて壁W裏に配置するときに、器具取付枠11が壁Wに当接したとしても、保持部30が弾性部34を有しているため、弾性部34の変形によって保持部30の突出量が減少するので、器具取付枠11の壁W裏への設置作業をスムーズに行うことができる。その結果、ケーブルCの配線作業を簡単に行うことができる。   (12) From the front side of the wall W, in the instrument mounting frame 11 arranged on the back side of the wall W through the wall hole drilled in the wall W, the annular holding part 30 through which the cable C on the back side of the wall W is inserted The frame body 12 protrudes from the back surface. And in the circumferential direction of the holding | maintenance part 30, it provided in the elastic part 34 so that the protrusion amount of this holding | maintenance part 30 could be reduced. According to this, even when the instrument mounting frame 11 abuts against the wall W when the instrument mounting frame 11 is disposed on the back side of the wall W through the wall hole Wa from the front side of the wall W, the holding portion 30 is not elastic. Since it has 34, since the protrusion amount of the holding | maintenance part 30 reduces by deformation | transformation of the elastic part 34, the installation operation | work to the wall W back of the instrument attachment frame 11 can be performed smoothly. As a result, the cable C can be easily wired.

(13)ケーブルCや電線管Dを挿通させていない保持部30も、弾性部34の弾性変形によってその突設量が減少するため、使用しない保持部30があったとしても、壁孔Waを器具取付枠11が通過する際に邪魔にならない。   (13) Since the protruding amount of the holding part 30 through which the cable C and the conduit D are not inserted is reduced due to the elastic deformation of the elastic part 34, the wall hole Wa is not formed even if there is a holding part 30 that is not used. It does not get in the way when the instrument mounting frame 11 passes.

(14)保持部30を、枠本体12の背面において螺入孔19を避けた位置に形成した。これによれば、螺入孔19に挿通されたビス43が枠本体12の背面に突出しても、保持部30で保持した電線管Dと干渉しないので、螺入孔19へのビス43の螺着作業や、保持部30への電線管Dなどの挿通作業をそれぞれスムーズに行うことができる。   (14) The holding portion 30 is formed at a position avoiding the screw hole 19 on the back surface of the frame main body 12. According to this, even if the screw 43 inserted into the screw hole 19 protrudes from the back surface of the frame body 12, it does not interfere with the electric conduit D held by the holding portion 30, so that the screw 43 is screwed into the screw hole 19. It is possible to smoothly perform the attaching operation and the inserting operation of the conduit D to the holding unit 30.

(15)枠本体12を、環状形成された板状の枠本体12における周方向の一部を切欠形成した形状とした。そして、枠本体12の背面において、保持部30を、螺入孔19を避けた位置に突設した。さらに、枠本体12の背面を保持部30の一部とし、残りの箇所に弾性部34を設けることで保持部30を形成した。これによれば、枠本体12の一部が保持部30を成すことになるので、保持部30が枠本体12から脱落することがなくなり、保持部30を枠本体12に固定しつつ、弾性変形させることで、器具取付枠11の壁W裏への設置作業をスムーズに行うことができる。   (15) The frame body 12 has a shape in which a part in the circumferential direction of the annular frame-shaped frame body 12 is cut out. Then, on the back surface of the frame main body 12, the holding portion 30 is protruded at a position avoiding the screw hole 19. Further, the holding portion 30 was formed by using the back surface of the frame body 12 as a part of the holding portion 30 and providing the elastic portion 34 at the remaining portion. According to this, since a part of the frame main body 12 forms the holding portion 30, the holding portion 30 is not dropped from the frame main body 12, and elastic deformation is performed while fixing the holding portion 30 to the frame main body 12. By doing, the installation operation | work to the wall W back of the instrument mounting frame 11 can be performed smoothly.

(16)保持部30を、枠本体12と、該枠本体12から枠本体12の外方に向かって延出する対向した側壁32と、両側壁32の先端を連結する連結壁33と、によって構成した。そして、弾性部34を両側壁32にそれぞれ設けた。保持部30の両側壁32は、壁Wに直接当接しないので、器具取付枠11と壁Wが当接した際に生じる圧力を、両側壁32に形成された弾性部34から分散させ易い。   (16) The holding portion 30 is constituted by the frame main body 12, the opposing side walls 32 extending from the frame main body 12 toward the outside of the frame main body 12, and the connecting walls 33 connecting the tips of the side walls 32. Configured. And the elastic part 34 was provided in the both side walls 32, respectively. Since both side walls 32 of the holding portion 30 do not directly abut against the wall W, the pressure generated when the instrument mounting frame 11 and the wall W abut can be easily dispersed from the elastic portions 34 formed on the side walls 32.

(17)器具取付枠11を、縦長矩形枠を構成する長辺のうち一辺を切欠除去することで開口部15を有する形状とした。このため、枠本体12の開口部15を利用することで、壁孔Waに対し器具取付枠11を通過させる作業を容易に行うことができ、結果として器具取付枠11を壁Wの裏側に簡単に配置することができる。   (17) The instrument mounting frame 11 has a shape having the opening 15 by removing one side of the long sides constituting the vertically long rectangular frame. For this reason, by using the opening 15 of the frame main body 12, it is possible to easily perform the operation of passing the instrument mounting frame 11 through the wall hole Wa. As a result, the instrument mounting frame 11 can be easily placed on the back side of the wall W. Can be arranged.

(第2の実施形態)
次に、本発明を具体化した第2の実施形態を図6(a),(b),(c)及び図7に従って説明する。なお、以下に説明する実施形態では、既に説明した第1の実施形態と同一構成については、同一符号を付すなどして、その重複する説明を省略又は簡略する。
(Second Embodiment)
Next, a second embodiment of the present invention will be described with reference to FIGS. 6 (a), (b), (c) and FIG. In the embodiment described below, the same components as those in the first embodiment described above are denoted by the same reference numerals, and the redundant description thereof is omitted or simplified.

本実施形態の器具取付枠100では、図6(a),(b)に示すように、各挟持片13の裏面であって、開口部15と反対側に位置する挟持片13の長辺端部には、保持部30が挟持片13の長辺方向に沿ってそれぞれ二つずつ突設されている。これにより、器具取付枠100は、四個の保持部30を有することになり、各保持部30においてケーブルC及び電線管Dの少なくともどちらか一方を保持することができる。   In the instrument mounting frame 100 of the present embodiment, as shown in FIGS. 6A and 6B, the long side end of the sandwiching piece 13 located on the opposite side of the opening 15 on the back surface of each sandwiching piece 13. Two holding parts 30 are provided on each part along the long side direction of the holding piece 13. Thereby, the instrument mounting frame 100 has the four holding | maintenance parts 30, and can hold | maintain at least any one of the cable C and the electric wire tube D in each holding | maintenance part 30. FIG.

次に、器具取付枠100を用いて配線器具Hを壁Wに設置する方法について、図7に従って説明する。本実施形態では、電線管Dを用いず、ケーブルCを直接保持部30内に挿通させるものとする。   Next, a method of installing the wiring device H on the wall W using the device mounting frame 100 will be described with reference to FIG. In the present embodiment, the cable C is inserted directly into the holding unit 30 without using the conduit D.

作業者Pは、壁W表に引き出したケーブルCを保持部30の内部に形成された挟持部36で挟持させる。そして、ケーブルCを配線器具Hに接続する。また、器具取付枠100は、器具取付枠11に比して保持部30の数が多いため、器具取付枠100を壁孔Waを通過させる際に保持部30が壁Wの表面に当接する確率が高くなる。ところが、保持部30に形成された弾性部34が弾性変形することで、保持部30の数が多くなったとしても、壁孔Waを器具取付枠100が通過する際に邪魔にならない。   The worker P causes the cable C drawn out to the surface of the wall W to be clamped by a clamping unit 36 formed inside the holding unit 30. Then, the cable C is connected to the wiring device H. Moreover, since the fixture mounting frame 100 has a larger number of holding portions 30 than the fixture mounting frame 11, the probability that the holding portion 30 contacts the surface of the wall W when the fixture mounting frame 100 is passed through the wall hole Wa. Becomes higher. However, even if the number of the holding parts 30 increases because the elastic part 34 formed in the holding part 30 is elastically deformed, it does not get in the way when the instrument mounting frame 100 passes through the wall hole Wa.

したがって、上記第2の実施形態によれば、第1の実施形態の(1)〜(17)と同様の効果に加え、以下のような効果を得ることができる。
(18)器具取付枠100では、枠本体12の裏面に位置する各挟持片13の長辺方向に沿って保持部30をそれぞれ二つずつ突設することで、計四つの保持部30を設けた。このように、器具取付枠11に比して保持部30の数が多いため、器具取付枠100を壁孔Waを通過させる際に保持部30が壁Wの表面に当接する確率が高くなる。ところが、保持部30に形成された弾性部34が弾性変形することで、保持部30の数が多くなったとしても、壁孔Waを器具取付枠100が通過する際に邪魔にならない。
Therefore, according to the said 2nd Embodiment, in addition to the effect similar to (1)-(17) of 1st Embodiment, the following effects can be acquired.
(18) In the instrument mounting frame 100, a total of four holding portions 30 are provided by projecting two holding portions 30 along the long side direction of each sandwiching piece 13 located on the back surface of the frame body 12. It was. Thus, since there are many holding | maintenance parts 30 compared with the instrument attachment frame 11, the probability that the holding | maintenance part 30 will contact | abut the surface of the wall W when passing the instrument attachment frame 100 through the wall hole Wa becomes high. However, even if the number of the holding parts 30 increases because the elastic part 34 formed in the holding part 30 is elastically deformed, it does not get in the way when the instrument mounting frame 100 passes through the wall hole Wa.

なお、上記各実施形態は以下のように変更しても良い。
○ 各実施形態において、環状のケーブル挿通部(保持部30)は、ケーブルCの径方向への移動により、ケーブルCが該ケーブル挿通部から容易に離脱しなければ、ケーブル挿通部にスリットが形成されていても良い。
In addition, you may change each said embodiment as follows.
In each embodiment, the annular cable insertion part (holding part 30) forms a slit in the cable insertion part unless the cable C is easily detached from the cable insertion part due to the movement of the cable C in the radial direction. May be.

○ 各実施形態において、保持部30の形成位置は、該保持部30と螺入孔19の形成位置が重複しなければ、どこに形成しても良い。例えば、挟持片13において螺入孔19よりも内方に位置しても良い。   In each embodiment, the holding portion 30 may be formed anywhere as long as the holding portion 30 and the screw hole 19 do not overlap. For example, the clamping piece 13 may be positioned inward of the screw hole 19.

○ 各実施形態において、最終段階における保持部30の内径R2は、立設された2枚の壁Wの間に形成される空間の奥行きよりも長くても良い。この場合、最終段階における保持部30の実質的な内径R2は、2枚の壁Wの間に形成される空間の奥行きより若干短い長さが、最終段階における保持部30の実質的な内径R2となる。   In each embodiment, the inner diameter R2 of the holding unit 30 in the final stage may be longer than the depth of the space formed between the two standing walls W. In this case, the substantial inner diameter R2 of the holding portion 30 in the final stage is slightly shorter than the depth of the space formed between the two walls W, and the substantial inner diameter R2 of the holding section 30 in the final stage. It becomes.

○ 各実施形態では、保持部30が弾性変形可能となるのであれば、弾性部34の折り畳み方向は、如何なる方向であっても良い。例えば、図8(a)〜(c)に示すように、電線管Dの軸方向、すなわち器具取付枠100の長辺方向に沿って周壁31が外側と内側に交互に折り畳まれていても良い。   In each embodiment, as long as the holding part 30 can be elastically deformed, the folding direction of the elastic part 34 may be any direction. For example, as shown in FIGS. 8A to 8C, the peripheral wall 31 may be alternately folded outward and inward along the axial direction of the conduit D, that is, the long side direction of the instrument mounting frame 100. .

○ 各実施形態において、保持部30の形状は、少なくともケーブルCを保持することができる内径を有するのであれば、どのような形状であっても良い。例えば、図9(a)に示すように、保持部30を構成する周壁31のうち枠本体12の裏面と接続されている接続部37を除く全周が、蛇腹状に形成されていても良い。この場合、全周が蛇腹状に形成されていることから、保持部30内に挿入された電線管Dの外径に応じて、保持部30の内径が追従して変化することになる。また、保持部30は弾性を備えていれば良く、周壁31を蛇腹状に折り畳む必要はない。例えば、図9(b)に示すように、接続部37を基端とし、その基端から周壁31を円形状に湾曲させることで開口38及び弾性を有する保持部30を形成しても良い。この場合、開口38の開口幅は、保持部30内に挿通したケーブルCが脱落しないよう、ケーブルCの厚みよりも短いことが望ましい。また、接続部37を基端として周壁31を円形状に湾曲させることで弾性を有しているため、周壁31の自由端側を保持部30の外方に向かって伸長させることで、保持部30内に電線管Dを挿通することができる。   In each embodiment, the shape of the holding portion 30 may be any shape as long as it has an inner diameter that can hold at least the cable C. For example, as shown to Fig.9 (a), the perimeter except the connection part 37 connected with the back surface of the frame main body 12 among the surrounding walls 31 which comprise the holding | maintenance part 30 may be formed in bellows shape. . In this case, since the entire circumference is formed in a bellows shape, the inner diameter of the holding portion 30 changes following the outer diameter of the conduit D inserted into the holding portion 30. Moreover, the holding | maintenance part 30 should just be provided with elasticity, and it is not necessary to fold the surrounding wall 31 in a bellows shape. For example, as shown in FIG. 9B, the opening 37 and the holding part 30 having elasticity may be formed by using the connection part 37 as a base end and curving the peripheral wall 31 in a circular shape from the base end. In this case, it is desirable that the opening width of the opening 38 is shorter than the thickness of the cable C so that the cable C inserted into the holding portion 30 does not fall off. In addition, since the peripheral wall 31 is curved in a circular shape with the connecting portion 37 as a base end, the holding portion is extended by extending the free end side of the peripheral wall 31 toward the outside of the holding portion 30. The conduit D can be inserted into the 30.

○ 各実施形態では、弾性部34の弾性によって初期段階における保持部30の内径R1も縮小可能としたが、初期段階における保持部30の内径R1を、それ以上縮小する方向に変化しないようにしても良い。この場合、弾性部34の折り畳み間隔と周壁31の厚みなどから、初期段階における保持部30の内径R1を、それ以上縮小する方向に変化しないような長さに設定することで実現可能となる。   In each embodiment, the inner diameter R1 of the holding part 30 in the initial stage can be reduced by the elasticity of the elastic part 34, but the inner diameter R1 of the holding part 30 in the initial stage is not changed in the direction of further reduction. Also good. In this case, it can be realized by setting the inner diameter R1 of the holding portion 30 in the initial stage to a length that does not change further in the direction of further reduction due to the folding interval of the elastic portion 34 and the thickness of the peripheral wall 31.

○ 各実施形態において、側壁32を蛇腹状に折り畳むことで弾性部34を形成するのであれば、その折り畳み間隔はどのような長さであっても良い。例えば、折り畳み間隔が、ケーブルCの厚みよりも長くても良い。   In each embodiment, as long as the elastic part 34 is formed by folding the side wall 32 into a bellows shape, the folding interval may be any length. For example, the folding interval may be longer than the thickness of the cable C.

○ 各実施形態では、弾性部34が壁Wに押圧された際に生じた力を利用して器具取付枠11,100側に弾性変形させることで、壁孔Waを器具取付枠11,100が通過する際に邪魔にならないようにした。この変更例として、塑性変形可能な保持部30を用いても良い。この場合、壁孔Waに器具取付枠11,100を通過させる前に、作業者Pが保持部30を折り畳むことで保持部30の突出量を減少させ、壁孔Waを通過させた際に、作業者Pが保持部30を枠本体12の外方に伸長させれば良い。また、塑性変形可能な保持部30を用いた場合、保持部30の初期段階への復帰力ではなく、保持部30の内径を縮小させるように作業者Pが保持部30を押圧することで、保持部30の内部に電線管Dが保持されることになる。   In each embodiment, the instrument mounting frames 11, 100 are made to deform the wall holes Wa by elastically deforming the instrument mounting frames 11, 100 using the force generated when the elastic portion 34 is pressed against the wall W. Made it out of the way when passing. As an example of this change, a holding part 30 that can be plastically deformed may be used. In this case, before passing the instrument mounting frames 11 and 100 through the wall hole Wa, the operator P reduces the protruding amount of the holding part 30 by folding the holding part 30, and when passing through the wall hole Wa, The operator P only has to extend the holding unit 30 outward of the frame body 12. Further, when the holding part 30 that can be plastically deformed is used, the worker P presses the holding part 30 so as to reduce the inner diameter of the holding part 30 instead of the return force of the holding part 30 to the initial stage. The conduit D is held inside the holding unit 30.

○ 各実施形態においてケーブルC又は電線管Dを保持することができるのであれば、保持部30は如何なる箇所に形成されていても良い。例えば、挟持片13の両短辺の開口端部に設けられていても良いし、連結片14に設けられていても良い。ただし、螺入孔19へのビス43の挿通が妨げられない位置に保持部30を設けることが好ましい。   As long as the cable C or the conduit D can be held in each embodiment, the holding unit 30 may be formed at any location. For example, it may be provided at the opening ends of both short sides of the sandwiching piece 13 or may be provided on the connecting piece 14. However, it is preferable to provide the holding portion 30 at a position where the insertion of the screw 43 into the screw hole 19 is not hindered.

○ 各実施形態では、保持部30の対向した箇所(側壁32)に弾性部34を形成したが、対向した位置でなくても良い。また、弾性部34の形成箇所は1箇所であっても良い。すなわち、器具取付枠11,100が壁Wの表面に当接した際に生じた力が、器具取付枠11,100に伝達せず、保持部30から外部に逃げられれば良い。   In each embodiment, although the elastic part 34 was formed in the location (side wall 32) which the holding | maintenance part 30 opposed, it does not need to be the position which opposed. Moreover, the elastic part 34 may be formed at one place. That is, the force generated when the instrument mounting frames 11 and 100 abut on the surface of the wall W is not transmitted to the instrument mounting frames 11 and 100 and may escape from the holding portion 30 to the outside.

○ 各実施形態において、保持部30では1種類の外径の電線管しか保持できなくても良い。
○ 各実施形態では、保持部30を一対の螺入孔19のうちどちらか一方の螺入孔19が形成されている挟持片13の裏面に形成しても良い。
In each embodiment, the holding unit 30 may be able to hold only one type of outer diameter conduit.
In each embodiment, the holding portion 30 may be formed on the back surface of the sandwiching piece 13 in which one of the pair of screw holes 19 is formed.

○ 各実施形態では、小径電線管と大径電線管の2種類を保持可能としたが、3種類以上の外径の異なる電線管Dを保持させても良い。
○ 各実施形態において、保持部30は枠本体12に一体成形されていなくてもよく、保持部30が別体形成されていても良い。
In each embodiment, two types of small-diameter and large-diameter conduits can be held, but three or more types of conduits D having different outer diameters may be held.
In each embodiment, the holding unit 30 may not be integrally formed with the frame body 12, and the holding unit 30 may be formed separately.

○ 各実施形態における保持部30をバインド線で成形しても良い。
○ 各実施形態における器具取付枠11,100の形状を、開口部を有さない枠形状としても良い。
(Circle) you may shape | mold the holding | maintenance part 30 in each embodiment with a bind wire.
(Circle) the shape of the instrument mounting frames 11 and 100 in each embodiment is good also as a frame shape which does not have an opening part.

○ 各実施形態における器具取付枠11,100の形状を、枠を構成する一辺の一部を切り欠いたC字形状としても良い。
○ 各実施形態における器具取付部材は、有底四角箱状の配線ボックスとしても良い。図10に示すように、配線ボックスBは、矩形板状の底壁B1と、底壁B1の周縁から立設された四つの側壁Ba〜Bdとから前面(一面)に開口部Kを有する有底四角箱状に形成されている。なお、四つの側壁Ba〜Bdのうち、図10の上下に対向する側壁を上側壁Ba及び下側壁Bbとする一方、図10の左右に対向する側壁を右側壁Bc及び左側壁Bdとする。そして、図10の配線ボックスBでは、上側壁Ba及び下側壁Bbが保持部30を形成している。また、上側壁Ba及び下側壁Bbの内面には、内方に突出した取着部としてのボス部Beが設けられている。各ボス部Beは、配線器具Hを配線ボックスBに取り着けるために用いられる。
(Circle) the shape of the instrument mounting frames 11 and 100 in each embodiment is good also as C shape which notched a part of one side which comprises a frame.
(Circle) the instrument attachment member in each embodiment is good also as a bottomed square box-like wiring box. As shown in FIG. 10, the wiring box B has an opening K on the front surface (one surface) from a rectangular plate-like bottom wall B1 and four side walls Ba to Bd erected from the periphery of the bottom wall B1. It is formed in a bottom square box shape. Of the four side walls Ba to Bd, the upper and lower side walls in FIG. 10 are the upper side wall Ba and the lower side wall Bb, and the left and right side walls in FIG. 10 are the right side wall Bc and the left side wall Bd. In the wiring box B of FIG. 10, the upper side wall Ba and the lower side wall Bb form the holding portion 30. Further, boss portions Be as attachment portions protruding inward are provided on the inner surfaces of the upper side wall Ba and the lower side wall Bb. Each boss portion Be is used to attach the wiring device H to the wiring box B.

配線ボックスBを器具取付部材として使用する場合、まず、保持部30に電線管Dを接続しておき、壁W裏における柱などの構造物に配線ボックスBの側壁(この例では、左側壁Bd)の外面を当接させ、左側壁Bdの内面から柱にビスを螺入することで、配線ボックスBが柱に固定される。そして、2枚の壁Wを立設した後、壁W表から各ボス部Beを臨むように壁Wに壁孔Waを穿設し、その後、ボス部Beに配線器具Hを取り付ける。   When the wiring box B is used as an appliance mounting member, first, the conduit D is connected to the holding portion 30, and the side wall (in this example, the left side wall Bd) of the wiring box B is connected to a structure such as a pillar on the back of the wall W. ) Are brought into contact with each other, and screws are screwed into the columns from the inner surface of the left side wall Bd, whereby the wiring box B is fixed to the columns. Then, after the two walls W are erected, a wall hole Wa is formed in the wall W so as to face each boss portion Be from the surface of the wall W, and then the wiring device H is attached to the boss portion Be.

○ 各実施形態において、器具取付枠11,100は、壁Wに取り付けた後、器具取付枠11,100の前面に位置する壁Wに壁孔Waを穿設するタイプであっても良い。器具取付部材が壁孔Waよりも大きい場合に、壁孔Waを穿設するよりも前に器具取付部材を壁Wに取り付けることになる。   In each embodiment, the instrument mounting frames 11 and 100 may be of a type in which a wall hole Wa is formed in the wall W positioned on the front surface of the instrument mounting frames 11 and 100 after being mounted on the wall W. When the instrument attachment member is larger than the wall hole Wa, the instrument attachment member is attached to the wall W before the wall hole Wa is formed.

○ 各実施形態では、電線管Dの軸方向への移動を規制できるのであれば、保持部30の内面に形成する係止片35の数は、二つに限られない。また、保持部30の内面であれば、どこに形成しても良い。   In each embodiment, the number of locking pieces 35 formed on the inner surface of the holding portion 30 is not limited to two as long as the movement of the conduit D in the axial direction can be restricted. Moreover, as long as it is the inner surface of the holding | maintenance part 30, you may form anywhere.

○ 各実施形態におけるケーブル挿通部は、ケーブルCが内部に挿通される電線管Dの接続部としての機能を有するものを含んでも良い。電線管Dは、壁W裏に枠本体12を配置してから、又は壁W裏に枠本体12を配置しながら接続するものであるため、電線管Dの設置時にケーブル挿通部が邪魔にならない。   (Circle) the cable insertion part in each embodiment may also include what has a function as a connection part of the electric conduit D by which the cable C is penetrated inside. Since the conduit D is to be connected after the frame main body 12 is arranged behind the wall W or while the frame main body 12 is arranged behind the wall W, the cable insertion portion does not get in the way when the conduit D is installed. .

○ 各実施形態では、係止突部17を削除しても良い。
○ 各実施形態では、第1,第2規制突部18a,18bを削除しても良い。
○ 各実施形態では、枠本体12における挟持片13の長辺方向への長さT2を、壁孔Waの幅(短辺方向への長さN2)と同じにしたが、枠本体12における挟持片13の長辺方向への長さT2を、壁孔Waの幅より短くしても良い。
In each embodiment, the locking protrusion 17 may be deleted.
In each embodiment, the first and second restricting protrusions 18a and 18b may be deleted.
In each embodiment, the length T2 of the sandwiching piece 13 in the frame body 12 in the long side direction is the same as the width of the wall hole Wa (length N2 in the short side direction). The length T2 in the long side direction of the piece 13 may be shorter than the width of the wall hole Wa.

○ 各実施形態では、器具取付枠11,100を、取着部としての螺入孔19及びナットを上下一対備えるタイプに具体化したが、器具取付枠11,100を、枠本体12を短辺方向に延長し、取着部を上下二対以上備えるタイプに変更しても良い。   In each embodiment, the instrument mounting frames 11 and 100 are embodied as a type having a screw hole 19 as an attachment portion and a pair of nuts on the upper and lower sides. You may change to the type which extends in a direction and is provided with two or more pairs of attachment parts.

○ 各実施形態では、配線器具Hを壁Wに設置する際、ビス43によって器具取付枠11,100と器具保持枠40を組み付けた状態で、器具取付枠11,100を壁Wの裏側に配置するようにしたが、これに限らない。すなわち、器具取付枠11,100と器具保持枠40を組み付けず、器具取付枠11,100のみを壁Wの裏側に配置し、その後、ビス43によって器具取付枠11,100に器具保持枠40を組み付けても良い。   In each embodiment, when installing the wiring device H on the wall W, the device mounting frames 11 and 100 are arranged on the back side of the wall W with the device mounting frames 11 and 100 and the device holding frame 40 assembled by screws 43. However, it is not limited to this. That is, the appliance mounting frames 11 and 100 and the appliance holding frame 40 are not assembled, and only the appliance mounting frames 11 and 100 are arranged on the back side of the wall W, and then the appliance holding frames 40 are attached to the appliance mounting frames 11 and 100 by screws 43. It may be assembled.

○ 各実施形態では、器具取付枠11,100の壁W裏への配置タイミングや、保持部30への電線管D及びケーブルCの挿通タイミングは、上記実施形態のタイミングに限られない。例えば、壁W表において、保持部30にケーブルCを挿通させた電線管Dを保持させた後、器具取付枠11,100を壁W裏に配置させても良い。   In each embodiment, the arrangement timing of the instrument mounting frames 11 and 100 on the back of the wall W and the insertion timing of the conduit D and the cable C to the holding unit 30 are not limited to the timing of the above embodiment. For example, on the wall W surface, after holding the conduit D through which the cable C is inserted into the holding portion 30, the instrument mounting frames 11, 100 may be arranged behind the wall W.

また、電線管Dを使用しない場合、強度の大きいケーブルCを使用し、壁孔Waから引き出したケーブルCを保持部30に挿通して、器具取付枠11を壁孔Waを通過させて壁W裏に配置する。このとき、図11に示すように、保持部30に挿通したケーブルCの先端を折り返すように折り曲げておく。その後、壁W裏に配置した器具取付枠11を壁孔Wa側に引き寄せることで、爪片17aが壁孔Wa内面に係止して、器具取付枠11が壁Wに取り付けられる。そして、ケーブルCを配線器具Hと接続し、器具保持枠40に配線器具Hを保持させる。続いて、配線器具Hを保持した器具保持枠40を器具取付枠11にビス43で固定する。この作業の間に、ケーブルCが壁Wに対して進退動し、それに伴って器具取付枠11における爪片17aの壁孔Waへの係止がはずれることがあっても、環状形成された保持部30にケーブルCが挿通されているため、器具取付枠11がケーブルCに支えられることになり、器具取付枠11が壁W裏に脱落することがない。なお、電線管Dを使用する場合、壁W裏において電線管D内にケーブルCが配線された状態で壁Wに壁孔Waを穿設して、その壁孔WaからケーブルCを壁W表側に引き出し、壁W表において、保持部30にケーブルCを挿通し、さらに保持部30に電線管Dを接続する。   When the conduit D is not used, the cable C having a high strength is used, the cable C drawn from the wall hole Wa is inserted into the holding portion 30, and the wall W is passed through the instrument mounting frame 11 through the wall hole Wa. Place it on the back. At this time, as shown in FIG. 11, the tip of the cable C inserted through the holding portion 30 is folded back. Thereafter, the instrument mounting frame 11 arranged on the back of the wall W is pulled toward the wall hole Wa side, whereby the claw pieces 17a are locked to the inner surface of the wall hole Wa, and the instrument mounting frame 11 is attached to the wall W. Then, the cable C is connected to the wiring device H, and the wiring device H is held by the device holding frame 40. Subsequently, the fixture holding frame 40 holding the wiring fixture H is fixed to the fixture mounting frame 11 with screws 43. During this operation, even if the cable C moves forward and backward with respect to the wall W, and the lock on the wall hole Wa of the claw piece 17a in the instrument mounting frame 11 is released accordingly, the ring-shaped holding Since the cable C is inserted through the portion 30, the instrument mounting frame 11 is supported by the cable C, and the instrument mounting frame 11 does not fall off the back of the wall W. When the conduit D is used, a wall hole Wa is formed in the wall W in a state where the cable C is wired in the conduit D behind the wall W, and the cable C is connected to the front side of the wall W from the wall hole Wa. The cable C is inserted into the holding part 30 and the conduit D is connected to the holding part 30 on the wall W surface.

○ 各実施形態では、器具取付枠11,100を、壁Wに対して傾動させながら壁孔Waを通過させる際に、保持部30の突出が障害とならないように、枠本体12に対してその突設方向を変更可能としても良い。つまり、各実施形態では、弾性部34が壁Wに押圧されることで、保持部30の突出方向を変えず、その突出量を減少させていたが、壁Wに押圧されることで、保持部30自体が器具取付枠11,100の短辺方向に向かって湾曲されるように変形するなどしても良い。   In each embodiment, when the instrument mounting frames 11, 100 are tilted with respect to the wall W and are allowed to pass through the wall hole Wa, the protrusions of the holding portion 30 do not interfere with the frame main body 12. The projecting direction may be changeable. That is, in each embodiment, the elastic part 34 is pressed against the wall W, so that the protruding amount of the holding part 30 is not changed and the protruding amount is reduced. However, the elastic part 34 is held by being pressed against the wall W. The part 30 itself may be deformed so as to be bent toward the short side direction of the instrument mounting frames 11, 100.

次に、上記実施形態及び別例から把握できる技術的思想を以下に追記する。
(イ)壁表側から、壁材に穿設された壁孔を通過させて壁裏に配置される器具取付部材であって、配線器具を取着するための一対の取着部と、前記壁裏面に当接する当接面と、を有する本体と、前記壁裏のケーブルが挿通されるとともに前記本体の背面に突設されるケーブル挿通部と、を備え、前記ケーブル挿通部は、その突出位置が変位可能となるよう、該ケーブル挿通部の少なくとも周方向の一部に変形可能な変位部が設けられてなる器具取付部材。
Next, a technical idea that can be grasped from the above embodiment and another example will be added below.
(A) A device mounting member disposed on the back of the wall through the wall hole drilled in the wall material from the front side of the wall, the pair of attachment portions for attaching the wiring device, and the wall A main body having an abutting surface that abuts on the back surface, and a cable insertion portion that is inserted through the cable behind the wall and protrudes from the rear surface of the main body, and the cable insertion portion has a protruding position thereof. An instrument mounting member in which a deformable displacement portion is provided on at least a part of the cable insertion portion in the circumferential direction so that the cable can be displaced.

(ロ)前記ケーブル挿通部の周壁は、少なくとも一部が蛇腹状に形成され、その間隔は、前記ケーブルを厚み方向から挟持可能な長さに形成されてなる請求項1〜請求項4のうちいずれか一項に記載の器具取付部材。   (B) At least a part of the peripheral wall of the cable insertion portion is formed in a bellows shape, and the interval is formed to a length capable of sandwiching the cable from the thickness direction. The instrument attachment member as described in any one of Claims.

C…ケーブル、D…電線管、H…配線器具、R1…初期段階における保持部30の内径、R2…最終段階における保持部30の内径、W…壁、Wa…壁孔、11…器具取付部材としての器具取付枠、12…本体としての枠本体、12a…当接面、15…開口部、19…取着部を形成する螺入孔、30…ケーブル挿通部としての保持部、31…保持部の周壁、32…保持部の側壁、34…蛇腹部としての弾性部、35…係止部としての係止片、36…保持部の挟持部。   C ... Cable, D ... Conduit, H ... Wiring instrument, R1 ... Inner diameter of holding part 30 in initial stage, R2 ... Inner diameter of holding part 30 in final stage, W ... Wall, Wa ... Wall hole, 11 ... Appliance mounting member , A mounting body as a body, 12a as a main body, 12a as a contact surface, 15 as an opening, 19 as a screw hole for forming a mounting portion, 30 as a holding portion as a cable insertion portion, and 31 as a holding portion. The peripheral wall of the part, 32 ... the side wall of the holding part, 34 ... the elastic part as the bellows part, 35 ... the locking piece as the locking part, 36 ... the clamping part of the holding part.

Claims (4)

壁表側から、壁材に穿設された壁孔を通過させて壁裏に配置される器具取付部材であって、
配線器具を取着するための一対の取着部と、前記壁の裏面に当接する当接面と、を有する本体と、
前記壁裏のケーブルが挿通されるとともに前記本体の背面に突設されて、該背面とともに環状を構成するケーブル挿通部と、を備え、
前記ケーブル挿通部は、少なくとも周方向の一部に該周方向に伸長する弾性部を備える器具取付部材。
From the front side of the wall, an instrument mounting member that is disposed on the back of the wall through a wall hole drilled in the wall material,
A main body having a pair of attachment portions for attaching the wiring device, and an abutment surface abutting against the back surface of the wall;
A cable insertion portion that is inserted into the back wall of the main body and protrudes on the back surface of the main body and forms an annular shape with the back surface ;
The cable insertion part is an instrument mounting member provided with an elastic part extending in the circumferential direction at least in a part of the circumferential direction.
壁表側から、壁材に穿設された壁孔を通過させて壁裏に配置される器具取付部材であって、
配線器具を取着するための一対の取着部と、前記壁の裏面に当接する当接面と、を有する本体と、
前記壁裏のケーブルが挿通されるとともに前記本体の背面に突設される環状のケーブル挿通部と、を備え、
前記ケーブル挿通部は、少なくとも周方向の一部に弾性部を備え、
前記弾性部は、前記ケーブル挿通部の周壁が蛇腹状に形成されてな器具取付部材。
From the front side of the wall, an instrument mounting member that is disposed on the back of the wall through a wall hole drilled in the wall material,
A main body having a pair of attachment portions for attaching the wiring device, and an abutment surface abutting against the back surface of the wall;
An annular cable insertion portion projecting from the back of the main body and the cable behind the wall is inserted;
The cable insertion part includes an elastic part at least in a part of the circumferential direction,
The elastic unit, device attachment member peripheral wall of the cable insertion portion ing formed in a bellows shape.
前記本体は、環状形成された板状の本体における周方向の一部を切欠形成されてなり、
前記ケーブル挿通部は、
前記本体の背面を前記ケーブル挿通部の一部とし、残りの箇所の少なくとも一部に前記弾性部が設けられてなる請求項1又は請求項2に記載の器具取付部材。
The main body is formed by notching a part of the circumferential direction in the annular plate-shaped main body,
The cable insertion part is
The instrument mounting member according to claim 1 or 2, wherein the back surface of the main body is a part of the cable insertion part, and the elastic part is provided in at least a part of the remaining part.
壁表側から、壁材に穿設された壁孔を通過させて壁裏に配置される器具取付部材であって、
配線器具を取着するための一対の取着部と、前記壁の裏面に当接する当接面と、を有する本体と、
前記壁裏のケーブルが挿通されるとともに前記本体の背面に突設される環状のケーブル挿通部と、を備え、
前記ケーブル挿通部は、少なくとも周方向の一部に弾性部を備え、
前記ケーブル挿通部は、前記本体と、該本体から本体の外方に向かって延出する対向した側壁と、両側壁の先端を連結する連結壁と、によって構成され、
前記弾性部は、前記両側壁にそれぞれ設けられてな器具取付部材。
From the front side of the wall, an instrument mounting member that is disposed on the back of the wall through a wall hole drilled in the wall material,
A main body having a pair of attachment portions for attaching the wiring device, and an abutment surface abutting against the back surface of the wall;
An annular cable insertion portion projecting from the back of the main body and the cable behind the wall is inserted;
The cable insertion part includes an elastic part at least in a part of the circumferential direction,
The cable insertion portion is constituted by the main body, opposing side walls extending from the main body toward the outside of the main body, and connecting walls that connect the tips of both side walls,
The elastic portion, respectively provided by Na Ru device attachment member to said side walls.
JP2012039092A 2012-02-24 2012-02-24 Instrument mounting member Active JP5840978B2 (en)

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JP2008125350A (en) * 1999-05-26 2008-05-29 Matsushita Electric Works Ltd Wiring apparatus fitting member
JP2002010431A (en) * 2000-06-27 2002-01-11 Matsushita Electric Works Ltd Mounting press hardware for wall board
JP3828385B2 (en) * 2001-06-27 2006-10-04 未来工業株式会社 Wiring fixture mounting apparatus and wiring fixture mounting method
JP4175271B2 (en) * 2004-02-27 2008-11-05 松下電工株式会社 Air protection cover
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